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STUDENTS EVALUATIONIN MATHEMATICS
AT SECONDARYSTAGE
A. Introduction
The fascinating world of mathematics provides an unlimited scope to mathematicians
to perceive problems pertaining to three situations visualised in the forms of concrete,abstraction and intuition. However, due to abstraction and intuition, sometimes some
of the mathematical concepts become quite complicated even for teachers who are
actively engaged in mathematics teaching at various stages. This needs the exhaustive
training in methods/ pedagogy as well as in contents. This also needs the clarifications
of mathematical concepts using instructional materials, experimentation, observation
and practicals etc. to avoid the abstraction at various stages of schooling. Good
mathematics instruction requires good teachers, and good teachers are those with
pedagogical content knowledge who, in turn, are predominantly those with good
content. Improvement of school mathematics education therefore begins with teaching
teachers the mathematics they need. In other words, the most difficult demand for
becoming a good teacher is to achieve a firm mastery of the mathematical content .
Without such a mastery, good pedagogy is difficult. A firm mastery of the content
opens up the world of pedagogy and offers many more effective pedagogical
possibilities. Even best pedagogy lavished on incorrect mathematics may result in
poor quality in teaching.
Mathematics as a science of abstract objects, relies on logic rather than on observation,
yet it employs observation, simulation, and even experiments as means of discovering
truth. The ability to reason and think clearly is extremely useful in our daily life, that
is, developing childrens abilities formathematisation is the main goal of mathematics
education as has been emphasised in National Curriculum Framework-2005
(NCF-2005). It is in this content that NCF-2005 has set two distinct targets for
mathematics education at school level viz. narrow and higher. The narrow aim of
school mathematics is to develop useful capabilities, particularly those relating to
numeracy- number, number operations, measurements, decimals and percentages. The
higher aim is to develop the childs resources to think and reason mathematically, to
pursue assumptions to their logical conclusions and to handle abstractions. It includes
a way of doing things, and the ability and the attitude to formulate and solve problems.
This calls for curriculum to be ambitious in the sense that it seeks to achieve the
higher aim mentioned above, rather than only the narrow aim. It should be coherent in
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the sense that the variety of methods and skills available piecemeal (in arithmetic,
algebra, geometry) cohere into an ability to address problems that come from other
domains such as sciences and in social studies at secondary stage. It should be important
in the sense that students feel the need to solve such problems.
Evaluation is a very comprehensive term which, in general, includes evaluating any
object, individual, event, trend, etc. A most common type of individual evaluation is the
evaluation of a student. It includes the assessments of the performance of the student
in the areas of her personality development in terms of intellectual, social and emotional
developments after she has been provided learning experiences through classroom
processes. Besides the factors like quality of teaching curricular materials, instructional
technology, school infrastructure and societal support also influence the learning and
experiences. In educational terminology, these areas of personality development are
called scholastic and co-scholastic areas. Due to its wider applications in various other
fields, mathematics is the most important scholastic area. It is for this reason,
mathematics is a compulsory subject up to the secondary stage from quite a long time.
This is the stage which acts as a bridge between the students who will continue with
Mathematics in higher classes. Therefore, evaluation of Mathematics at this stage
requires special attention. This evaluation is done to assess whether the main aim or objectives
laid down in NCF-2005 have been achieved by the students or not?
B. Purposes of Evaluation
There are various purposes of evaluation. Some of these are to know the answers for
the following questions:
(i) How has the teaching been effective?
(ii) Which method is more suitable for teaching a particular topic or concept?
(iii) To what extent students are ready to learn a particular topic?
(iv) What type of learning difficulties are faced by the students?
(v) Do the students require remedial measures?(vi) Which students are to be provided some enrichment materials?
(vii) Which topics are more difficult for the student?
(viii) Is there a need to make a change in the teaching strategy for a particular topic?
(ix) How can the result of the evaluation can be utilised for the all round development
of students?
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C. Types of Evaluation
Evaluation is mainly of two types namely
(i) Summative and (ii) Formative
(i) Summative Evaluation: It is done at the end of the course or a term. It involves
a formal testing of the students achievements and is used for grading, ranking
and certifying the achievements of the students.
(ii) Formative Evaluation: It is in-built in the teaching learning process. It is a
continuous process going on throughout the course. The purpose of such evaluation
is to obtain feedback so that teaching or instructional strategies could be improved.
Further, on the basis of the feedback, strategies and weaknesses of the students
can be assessed.
NCF-2005 has also given more stress on continuous and comprehensive evaluation
in comparison to the summative evaluation. For this, a mathematics teacher may
(i) ask some questions to know to what extent the students understand about the
new concept to be taught before it is started.
(ii) ask question at regular intervals to check the understanding of students during the
presentation of a concept.
(iii) assess students by the questions asked by them during the teaching of a chapter.
(iv) assess the students during class work.
(v) assess students on the basis of the home assignments given to them.
(vi) assess students by asking some questions at the end of the chapter.
(vii) encourage peer group members (students) to evaluate one another. This may be
called as Peer Evaluation. This evaluation can bring out the hidden talents among
the students.
Thus, whatever may be the way of evaluation, it is done through some well thought
questions, which may be referred to as good questions.
D. Characteristics of a Good Question
Quality of a question depends on the situation where it is to be used. In general,
following are some of the characteristics of a good question:
(i) Validity:A question is said to be valid, if it serves the purpose for which it has
been framed.
Thus, for a question to be valid, it must be based on (a) a specified extent area
and also on (b) a predetermined aim or objective.
In case it is not valid, it will be treated as a question out of course or syllabus.
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(ii) Reliability:A question is said to be reliable, if its answer gives the true achievement
of the student. In other words, the achievement of the student must be free from
chance errors. These errors, generally, occur due to vagueness of language or
direction provided in the question. They may occur (1) at the time when the
student is answering the question and (2) at the time when the teacher is evaluating
the answer. In view of the above, following steps can ensure higher reliability of
a question:
(a) The question should admit of one and only one interpretation.
(b) The scope of the answer must be clear.(c) The directions to the question must be clear.
(d) A well thought marking scheme should be provided for the question.
(iii) Difficulty Level:Difficulty level is a very important characteristic of a question.
In different situations, questions of different difficulty levels are needed. For
example, for assessing the achievement of Minimum Level of Learning, there
will always be a need of questions of lower difficulty level. Difficulty level of a
question may be categorised in the following three types:
(a) Difficult: Which could be done by about less than 30% of the students.
(b) Average: Which could be done by 30% but 70% of the students.
(c) Easy: Which could be done by more than 70% of the students.
These levels can be decided by the question framer herself on the basis of her own
experiences.
(iv) Language: Language of a question must be simple and within the comprehension
level of the students vocabulary. It should not lead to different answers. However,
if necessary, the same question can be presented before the students at different
difficulty levels, by using a little different language or wordings.
(v) Form: There are different forms of questions and each form is more suitable than
the other depending upon the situations. There may be several factors for choosing
a particular form of questions. There may be one or more of the following:
(a) Economy (b) Facility in printings (c) Ease in scoring and so on.
E. Different Forms of questions
In general, the questions are of the following two forms:
(1) Free Response Type and (2) Fixed Response Type
1. Free Response Questions: In a free response question, a student formulates
and organizes her own answer. These type of questions are very much in use in the
present system of examination. These are of two types, namely
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(a) Long Answer Questions
A question which requires comparatively a lengthy answer is called a long answer
type question. These questions require the student to select relevant facts, organise
them and write answers in her own words. In these type of questions, there is a very
little scope of guessing. However, if there are more number of long answer questions,
then the possibility of covering the whole content area in the examination will become
less. To overcome this difficulty, we may choose such long answer type questions
which involve more than one content areas.
(b) Short Answer Questions
A question in which a student is expected to write the answer in 3 or 4 lines is called
a short answer type question. In these question, the coverage of content areas is more
specific and definite. It may be noted that a question whose answer may be a simple
diagram is also considered to be a short answer type question.
2. Fixed Response Questions: In these type of questions, the answer is fixed and
definite. These type of question are being encouraged due to their objectivity in scoring.
They are also of two types, namely
(a) Very Short Answer Questions
A question in which a student is expected to give the answer in just one word or a
phrase is called a very short answer type question. In mathematics, by a word or a
phrase, we generally mean a group of symbols or numbers (numerals). It is expectedto take 1 to 3 minutes to answer such a question. Fill in the blanks question is one of
the examples of such type of questions.
(b) Objective Questions
An objective type question is one in which alternate answers are given and student
has to just indicate the correct answer. These questions can also be answered in just
1 to 3 minutes. They can be further classified into the following forms:
(i) True-False Type: In these type of questions, a statement or formula is given and
the student is expected to write whether it is True or False.
(ii) Matching Type: These type of questions consist of two columns. The student
has to pair each item of first column with some item of the second column on the basis
of some criterion. The number of items in the second column may be more than that ofthe first column.
(iii) Sentence Completion Type: In these type of questions, the student has to
complete the given sentence using one or more words given in brackets along with the
question.
(iv) Multiple Choice Type: In these type of questions, number of alternatives (usually
called distracters), only one is appropriate or correct. The student is expected to write
or tick () the correct alternative.
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In the fixed response questions, the scope guess work is very high. However, this
can be minimised by attaching some element of reasoning in such questions. We may
call these questions as Short Answer Questions with Reasoning.
F. Instructional Objectives
As already stated, a question is said to be valid if it also based on a predetermined
objective. The world objective is a tiered form. Objectives are divided into two groups,
namely (1) educational objectives and (2) instructional objectives. Educational objectives
play a directive role in the process of education, while instructional objectives are
those goals for the achievement of which all educational efforts are directed.Mathematics is a special language with its own vocabulary and grammar. The
vocabulary consists of concepts, terms, facts, symbols, assumptions, etc., while the
grammar relates to principles, processes, functional relationships etc. Knowledge and
understanding of these and their applications to new situations have helped mankind to
achieve tremendous progress in various fields. Therefore, the main instructional
objectives for mathematics are as follows:
1. Knowledge with Specifications
The students
1.1 recall or reproduce terms, facts, etc.
1.2 recognise terms, symbols, concepts, etc.
2. Understanding with Specifications
The students
2.1 give illustrations for terms, definitions etc.
2.2 detect conceptual errors (and correct) in definitions, statements, formulae, etc.
2.3 compare concepts, quantities, etc.
2.4 discriminate between closely related concepts
2.5 translate verbal statements into mathematical statements and vice-versa
2.6 verify the results arrived at
2.7 classify data as per criteria
2.8 find relationships among the given data
2.9 interpret the data
3. Application with Specification
3.1 analyse and find out what is given and what is required to be done
3.2 find out the adequecy, superflousity and relevancy of data
3.3 estabish relationship among the data
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3.4 reason out deductively
3.5 select appropriate methods for solutions problems
3.6 suggest alternative methods for solving problems
3.7 generalise from particular situations
4. Skill with Specifications
4.1 Carry out calculation easily and quickly
4.2 Handle geometrical instruments properly
4.3 Draw figure accurately and to the scale4.4 Read tables and graphs properly
4.5 Interpret graphs correctly
As far as the main goal or objective in the NCF-2005 is concerned, it is to
develop abilities in the student for mathematisation. It also states (1) the narrow aims
of school mathematics, which concern with decimals and percents and (2) the higher
aims, which are for developing the child resources to think and reason mathematically,
to pursue assumption to their logical conclusions and to handle abstractions. Keeping
this in view, at this stage, the stress is only on the higher aims. These higher aims may
be considered as the instructional objectives. Objective based questions and objective
type questions are often confused with each other. When a question is framed keeping
a definite aim or objective in mind, it is called an objective based question, while if aquestion is framed to measure the students achievement which is objective rather than
subjective is called objective type question. It may also be noted that determination
of the objective of a question varies from person to person. For example, a question
may appear to be of knowledge type to one teacher who may think that the answer
of the question is known to the students, but the same question may appear to be of
understanding type to another teacher if she thinks that the question is completely
unknown to the same group of students. In the light of the views expressed in
NCF-2005, the following types of questions are suggested:
1. Long answer questions
2. Short answer questions
3. Short answer questions with reasoning
4. Multiple choice questions
It is hoped that these questions along with the questions in the textbook would
be effectively able to evaluate the Classes IX and X students in mathematics.
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CONTENTS
FOREWORD iii
PREFACE v
STUDENTS EVALUATIONIN MATHEMATICSATSECONDARY STAGE
CHAPTER 1 Number Systems 1
CHAPTER 2 Polynomials 13
CHAPTER 3 Coordinate Geometry 24
CHAPTER 4 Linear Equations in Two Variables 33
CHAPTER 5 Introduction to Euclids Geometry 43
CHAPTER 6 Lines and Angles 54
CHAPTER 7 Triangles 63
CHAPTER 8 Quadrilaterals 72
CHAPTER 9 Areas of Parallelograms and Triangles 84
CHAPTER 10 Circles 97
CHAPTER 11 Constructions 108
CHAPTER 12 Herons Formula 112
CHAPTER 13 Surface Areas and Volumes 121
CHAPTER 14 Statistics and Probability 129
Answers 150
Design of the Question Paper , Set-I 169
Design of the Question Paper, Set-II 184
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